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IRNC: RXP: StarLight SDX A Software Defined Networking Exchange for Global Science Research and Education Joe Mambretti, Director, (j-mambretti@northwestern.edu) International Center for Advanced Internet Research (www.icair.org) Northwestern


  1. IRNC: RXP: StarLight SDX A Software Defined Networking Exchange for Global Science Research and Education Joe Mambretti, Director, (j-mambretti@northwestern.edu) International Center for Advanced Internet Research (www.icair.org) Northwestern University Director, Metropolitan Research and Education Network (www.mren.org) Co-Director, StarLight (www.startap.net/starlight) PI IRNC: RXP: StarLight SDX Co-PI Tom DeFanti, Research Scientist, (tdefanti@soe.ucsd.edu) California Institute for Telecommunications and Information Technology (Calit2), University of California, San Diego Co-Director, StarLight Co-PI Maxine Brown, Director, (maxine@uic.edu) Electronic Visualization Laboratory, University of Illinois at Chicago Co-Director, StarLight Co-PI Jim Chen, Associate Director, International Center for Advanced Internet Research, Northwestern University National Science Foundation International Research Network Connections Program Workshop Washington DC April 26, 2015

  2. Program: NSF IRNC • National Science Foundation Program • Directorate for Computer & Information Science & Engineering (CISE) • Division of Advanced Cyberinfrastructure • NSF 14-554 International Research Network Connections (IRNC) • Infrastructure and Innovation of U.S. R&E Open Exchange Points (IRNC: RXP)

  3. IRNC: RXP: StarLight SDX Key Participants • PI Joe Mambretti, Director, International Center for Advanced Internet Research • Northwestern University, Director, Metropolitan Research and Education Network • Co-Director, StarLight, • Co-PI Tom DeFanti, Research Scientist, (tdefanti@soe.ucsd.edu) • California Institute for Telecommunications and Information Technology (Calit2), • University of California, San Diego • Co-PI Maxine Brown, Director • Electronic Visualization Laboratory, University of Illinois at Chicago • Co-PI Jim Chen, Associate Director, International Center for Advanced Internet Research • Northwestern University • Senior Personnel • Phil Papadopoulos, Program Director, UC Computing Systems, San Diego Supercomputer Center, UCSD, Associate Research Professor (Adjunct) Computer Science UCSD • Tom Hutton, Network Architect, UC San Diego Supercomputing Center, SDSC/Calit2 • John Graham, Senior Development Engineer Calit2 UCSD • Larry Smarr, founding Director of Calit2) a UC San Diego/UC Irvine partnership, Harry E. Gruber Professor in Computer Science and Engineering (CSE) at UCSD's Jacobs School. • Linda Winkler, Senior Network Enginee r, Math and Computer Science Division , Argonne National Laboratory, Senior Network Engineer, StarLight Facility, Technical Director, MREN • Also, Other Members of the StarLight Consortium, Multi National and International Partners

  4. StarLight International/National Communications Exchange Facility – “By Researchers For Researchers” StarLight Is an Innovation Platform For Advanced Communications Services Architecture and Technologies, Including Experimental Testbeds Optimized For High-Performance Data Intensive Applications Multiple 10GE+100 Gbps Over Optics – World’s “Largest” 10G/100G Exchange First of a Kind Enabling Interoperability At L1, L2, L3 Also, StarWave Multi-100 Gbps Exchange Abbott Hall, Northwestern University’s View from StarLight Chicago Campus

  5. StarLightSoftware Defined Networking Exchange (SDX) • The StarLight SDX Will Provide The Services, Architecture, and Technologies Designed To Provide Scientists, Engineers, and Educators With Highly Advanced, Diverse, Reliable, Persistent, and Secure Networking Services, Enabling Them to Optimally Access Resources in North America, South America, Asia, South Asia (including India), Australia, New Zealand, Europe, the Middle East, North Africa, And Other Sites Around the World. • The StarLight SDX Initiative Will Undertake Continued innovation and Development of Advanced Networking Services and Technologies.

  6. NG Digital Sky Survey ATLAS BIRN: Biomedical Informatics Research LHCONE Network CAMERA CineGrid www.lhcone.net ANDRILL: www.nbirn.net Carbon Tracker metagenomics www.cinegrid.org Antarctic www.esrl.noaa.gov/ camera.calit2.net Geological gmd/ccgg/carbontrack ALMA: Atacama Drilling er Large Millimeter www.andrill.org Array www.alma.nrao.edu OOI-CI GEON: Geosciences ci.oceanobservatories.org ISS: International Network Space Station www.geongrid.org GLEON: Global Lake Comprehensive www.nasa.gov/statio Ecological Large-Array n Observatory Stewardship System DØ (DZero) Network Pacific Rim www.class.noaa.gov www-d0.fnal.gov www.gleon.org Applications and Grid Middleware Assembly WLCG www.pragma- LIGO lcg.web.cern.ch/LCG/publi grid.net www.ligo.org TeraGrid c/ IVOA: www.teragrid.org International Virtual Observatory Sloan Digital Sky www.ivoa.net Survey Globus Alliance XSEDE SKA OSG www.sdss.org www.globus.org www.xsede.org www.skatelescope.o www.opensciencegrid.org rg Compilation By Maxine Brown

  7. The Global Lambda Integrated Facility: a Global Programmable Resource

  8. Source: GLIF Auto GOLE Group

  9. iCAIR

  10. Tasks/Goals For 2014 Design and Implement ofNSI – 1 st Showcased At SC14

  11. Benefits of SDN • SDN Not Only Allows Network Designers To Create a Much Wider Range of Services and Capabilities Than Can Be Provided With Traditional Networks, But They Also Enable: – a) A More Comprehensive, Graulated View Into Network Capabilities and Resources – b) Many More Dynamic Provisioning and Adjustment Options, Including Those That Are Automatic and Implemented In Real Time – c) Faster Implementations of many New and Enhanced Services – d) Enabling Applications, Edge Processes and Even Individuals To Directly Control Core Resources; – e) Substantially Improved Options For Creating Customizable Networks – f) Enhanced Operational Efficiency and Effectiveness. – And Much, Much More!

  12. Software Defined Networking Exchanges (SDXs) • With the Increasing Deployment of SDN In Production Networks, the Need for an SDN Exchange (SDX) Has Been Recognized. • Many Motivations Exist for SDXs – Bridging SDNs (Which Are Single Domain & Centralized Controller Oriented) – Granulated Engineering Over Flows – High Degrees Of Exchange Customization • Required: Capabilities for Multi-Domain Distributed SDN Resource Discovery, Signaling, Provisioning, Federation, Operational Functions, Fault Detection and Recovery • These Are Fairly Challenging Issues

  13. Selected SDX Architectural Attributes • Control and Network Resource APIs • Multi Domain Integrated Path Controllers (With Federation) • Controller Signaling, Including Edge Signaling • SDN/OF Multi Layer Traffic Exchange Services • Multi Domain Resource Advertisement/Discovery • Topology Exchange Services • Multiple Highly Customized Services At All Layers • Granulated Resource Access (Policy Based), Including Through Edge Processes, Including To individual Streams • Foundation Resource Programmability • Various Types of Gateways To Other Network Environments Integration of OF and Non-OF Paths, Including 3 rd Party Integration • • Programmability for Large Scale Large Capacity Streams

  14. SDX As Recursive Virtual Switch Sierpinski Triangle Unlimited Number of Customized Virtual Switches Within Macro Virtual Switch

  15. GLIF Based On SDXs Supporting Slice Exchanges

  16. Global Network Science: iGENI Consortium Uses The Global Lambda Integrated Facility As the Basis For a Distributed SDN/OpenFlow Testbed

  17. Science Use Case: Nowcasting With SDXs Source: Mike Zink, UMass Amherst CASA Data, EM Decision-Making Protects First Responders and Public

  18. Slide by Mike Zink, UMass Amherst Source: Mike Zink, UMass Amherst

  19. GENI SDX Demo Scenario R3 Simulated R4 R1 R2 Radar (4) StarLight SDX ESnet AL2S ORNL Georgia Tech SDX Mid Box GEC 19

  20. SDX StarLight  NetherLight Ronald van der Pol, Joe Mambretti, Jim Chen, John Shillington

  21. 10.12.34.1 10.12.34.12 OpenFlow Edmonton Pica8 3290 OpenFlow 10.12.34.11 Calgary Pica8 3290 OpenFlow Amsterdam Cybera Pica8 3920 SURFnet CANARIE canarie ACE StarLight NetherLight StarLight NetherLight

  22. International Software-Defined Network Exchanges (iSDXs): A Demonstration of Global Capabilities Joe Mambretti, Jim Chen, Fei Yeh International Center for Advanced Internet Research Northwestern University, USA Mike Zink, Divyashri Bhat University of Massachusetts, Amherst, USA Ronald Van der Pol Surfnet, Netherlands Grace Lee, WunYuan Huang, Te-Lung Liu NARLabs, National Center for High Performance Computing,Taiwan Thomas Tam, Herve Guy, CANARIE, Canada Alex Valiushko, John Shillington, Cybera, Canada Buseung Cho, KISTI Republic of Korea Michiaki Hayashi, KDDI Labs, Japan Toshiaki Tarui, Hitachi, Japan Aki Nakao, University of Tokyo, Japan Steve Cotter, T. Charles Yun, Jamie Curtis, Andrej Ricnik REANNZ, New Zealand Josh Bailey, Google, New Zealand Artur Binczewski Belter Bartosz Miłosz Przywecki Piotr Rydlichowski Poznan Supercomputing and Networking Center, Poland Russ Clark, Georgia Tech, USA Global LambdaGrid Workshop Queenstown, New Zealand September 30-October 1, 20 14

  23. Slice Exchange Showcase at GEC 21

  24. Petascale

  25. BI Data Flow Visualization (Inbound-Outbound) From SDSC To UoC

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